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Optimizacija ulivno-napajalnega sistema ulitka kape izolatorja iz bele temprane litine : magistrsko delo
ID Brence, Jan (Author), ID Mrvar, Primož (Mentor) More about this mentor... This link opens in a new window, ID Kastelic, Sebastjan (Comentor)

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Abstract
Ulivno-napajalni sistem za vertikalno litje v peščene forme mora biti dimenzioniran na način, da je tok taline čim manj turbulenten, da plini iz peščene mešanice ter okoliški zrak niso ujeti v talini ter da med litjem ne prihaja do erozije peščene forme. Talina mora vstopiti v livno votlino na način, da povzroči temperaturno razliko, ki spodbuja usmerjeno strjevanje ulitka. Poleg zgoraj omenjenih zahtev mora biti ulivno-napajalni sistem tudi ekonomičen; količina taline, uporabljene v sistemu, mora biti zadostna in minimalna, da dosežemo čim višji izplen oz. izkoristek ob zagotavljanju ustrezne kakovosti ulitkov. Napačna zasnova ulivnega sistema je namreč eden izmed glavnih vzrokov za številne napake, ki se lahko pojavijo med masovno proizvodnjo. Med te sodijo plinska in krčilna poroznost, hladni spoji, vključki žlindre, razpoke v vročem, pripečen pesek, odkrušena forma itd. Računalniško podprte simulacije litja in strjevanja so dandanes ključne za optimizacijo parametrov procesa litja in za predvidevanje možnih napak in tveganj, še preden te nastopijo. Z njimi lahko že v fazi razvoja orodja določimo najbolj optimalne pogoje litja in konstruiramo primeren ulivno-napajalni sistem glede na specifikacije ulitka. V tem delu je opisana optimizacija elementov ulivno-napajalnega sistema kape izolatorja, izdelane iz bele temprane litine. V podjetju Livarna Titan d.o.o. v Kamniku so na tem artiklu beležili velik delež kakovostno neskladnih ulitkov kot posledico neustrezno konstruiranega napajalnega sistema. Za odpravo krčilne poroznosti v ulitku so bili izvedeni korektivni ukrepi na podlagi »in situ« enostavne termične analize in računalniško podprtih izračunov litja in strjevanja z uporabo programskega paketa ProCAST. Kapa izolatorja, kot varnostni element na visokonapetostnih daljnovodih, ima zahtevano dolgotrajno življenjsko dobo in s tem visoko odpornost proti koroziji. Zaradi težav v proizvodnji s pridobitvijo ustrezne debeline cinkovega nanosa so bile izvedene nadaljnje študije. Preko metalograsfkih posnetkov in EDS analiz na vrstičnem elektronskem mikroskopu je bil raziskan vpliv procesnih parametrov cinkanja ter mikrostrukture temprane litine na debelino in sestavo cinkovega nanosa.

Language:Slovenian
Keywords:temprana litina, gravitacijsko litje, ulivno-napajalni sistem, ProCAST, vroče cinkanje
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:NTF - Faculty of Natural Sciences and Engineering
Place of publishing:Ljubljana
Publisher:[J. Brence]
Year:2022
Number of pages:XVI, 70 str.
PID:20.500.12556/RUL-139073 This link opens in a new window
UDC:669
COBISS.SI-ID:127170051 This link opens in a new window
Publication date in RUL:30.08.2022
Views:665
Downloads:95
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Secondary language

Language:English
Title:Optimisation of casting-feeding system of insulator cap made from white-heart malleable iron : master's thesis
Abstract:
The gating system for vertical sand mold casting process must be dimensioned in such a way that the melt flows through it with as low turbulences as possible, that gases and ambient air are not trapped in the flow and that erosion of the sand mold does not occur during casting. The melt must also enter the casting cavity in a way which promotes direct solidification from the feeder neck up to the pouring basin. In addition to the above requirements, the gating system must also be economical; the amount of melt used in the system to feed the castings should be sufficient and minimal to achieve maximum efficiency whilst also producing quality castings. During mass production, casting defects such as gas and shrinkage porosity, cold shuts, slag inclusion, hot tears, burnt on sand, mould defects etc. can occur. Nowadays, computer-aided simulations of casting and solidification are crucial for optimizing the parameters of the casting process and for predicting possible errors and risks before they actually occur. With them, we can determine the most optimal casting conditions already in the tool development phase and construct a suitable gating system, according to the specifications of the casting. This work describes the gating system optimization of insulator caps, made from white-heart malleable iron. To reduce the large number of ejected castings recorded in the company Livarna Titan, d.o.o. in Kamnik, a change was made on the modeling tools on the basis of “in-situ” thermal analysis and computer-aided calculations of casting and solidification using ProCAST software package. The insulator cap, as a safety element on high-voltage transmission lines, has a required long service life and has to therefore be highly resistant against corrosion. Due to production difficulties in obtaining a suitable thickness of the zinc coating, further studies were carried out. The influence of the galvanizing process parameters and the microstructure of the malleable cast iron on the thickness and composition of the zinc coating was investigated using metallographic images and EDS analysis on a scanning electron microscope.

Keywords:malleable iron, gravity casting, gating system, ProCAST, hot-dip galvanizing

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